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life Article Multiple Non-Species-Specific Pathogens Possibly Triggered the Mass Mortality in Pinna nobilis 1, 2, , 1,2 3 3 Fabio Scarpa y, Daria Sanna * y, Ilenia Azzena , Davide Mugetti , Francesco Cerruti , Sepideh Hosseini 2 , Piero Cossu 1 , Stefania Pinna 4, Daniele Grech 4, David Cabana 4, Viviana Pasquini 5, Giuseppe Esposito 1, Nicoletta Cadoni 6, Fabrizio Atzori 6, Elisabetta Antuofermo 1, Piero Addis 5 , Leonardo Antonio Sechi 2 , Marino Prearo 3, Simone Peletto 3 , Marianna A. Mossa 7, Tiziana Saba 7, Vittorio Gazale 8 and Marco Casu 1 1 Dipartimento di Medicina Veterinaria, Università degli Studi di Sassari, Via Vienna 2, 07100 Sassari, Italy; [email protected] (F.S.); [email protected] (I.A.); [email protected] (P.C.); [email protected] (G.E.); [email protected] (E.A.); [email protected] (M.C.) 2 Dipartimento di Scienze Biomediche, Università degli Studi di Sassari, Viale San Pietro 43/B, 07100 Sassari, Italy; [email protected] (S.H.); [email protected] (L.A.S.) 3 Istituto Zooprofilattico Sperimentale del Piemonte, Liguria e Valle d’Aosta, Via Bologna 148, 10154 Torino, Italy; [email protected] (D.M.); [email protected] (F.C.); [email protected] (M.P.); [email protected] (S.P.) 4 IMC-International Marine Centre, Loc. Sa Mardini, Torregrande, 09170 Oristano, Italy; [email protected] (S.P.); [email protected] (D.G.); [email protected] (D.C.) 5 Dipartimento di Scienze della Vita e dell’Ambiente, Università di Cagliari, Via Fiorelli 1, 09126 Cagliari, Italy; [email protected] (V.P.); [email protected] (P.A.) 6 Area Marina Protetta Capo Carbonara, Comune di Villasimius, Via Roma 60, 09049 Villasimius, Italy; [email protected] (N.C.); [email protected] (F.A.) 7 Regiona autonoma della Sardegna, Via Roma 80, 09123 Cagliari, Italy; [email protected] (M.A.M.); [email protected] (T.S.) 8 Area Marina Protetta “Isola dell’Asinara”, 07046 Porto Torres, Italy; [email protected] * Correspondence: [email protected] Fabio Scarpa and Daria Sanna equally contributed to this paper. y Received: 5 August 2020; Accepted: 9 October 2020; Published: 13 October 2020 Abstract: The fan mussel, Pinna nobilis, represents the largest bivalve endemic to the Mediterranean Sea. Since 2016, dramatic mass mortality of this species has been observed in several areas. The first surveys suggested that Haplosporidium pinnae (currently considered species-specific) was the main etiological agent, but recent studies have indicated that a multifactorial disease may be responsible for this phenomenon. In this study, we performed molecular diagnostic analyses on P. nobilis, P. rudis, and bivalve heterologous host species from the island of Sardinia to shed further light on the pathogens involved in the mass mortality. The results support the occurrence of a multifactorial disease and that Mycobacterium spp. and H. pinnae are not necessarily associated with the illness. Indeed, our analyses revealed that H. pinnae is not species-specific for P. nobilis, as it was present in other bivalves at least three years before the mass mortality began, and species of Mycobacterium were also found in healthy individuals of P. nobilis and P. rudis. We also detected the species Rhodococcus erythropolis, representing the first report in fan mussels of a bacterium other than Mycobacterium spp. and Vibrio spp. These results depict a complicated scenario, further demonstrating how the P. nobilis mass mortality event is far from being fully understood. Keywords: fan mussel; Mycobacterium sp.; Haplosporidium pinnae; Rhodococcus erythropolis; multifactorial disease; Sardinia; heterologous host species; sentinel species; Pinna rudis Life 2020, 10, 238; doi:10.3390/life10100238 www.mdpi.com/journal/life Life 2020, 10, 238 2 of 16 1. Introduction The fan mussel (or noble pen shell), Pinna nobilis Linnaeus, 1758 (Bivalvia: Pinnidae), is one of the best-known marine invertebrates, representing an endemic flagship species for the Mediterranean Sea. The fan mussel is one of the largest bivalves in the world and the largest in the Mediterranean, reaching up to 120 cm in height [1], and it is one of the most long-lived, living up to 50 years in favorable conditions [2]. Pinna nobilis lives at depths between 0.5 and 60 m on soft bottoms overgrown by seagrass meadows [3] and occasionally on the bare sandy substrate and maerl beds [4]. The length of the larval life cycle, as well as factors influencing survival rates and behavior, remain poorly understood [5]. In general, the larval duration for the genus Pinna has been estimated to be a maximum of 10 days [4,6]. After the veliger stage in which the larvae drift in the water column [7], juveniles settle in the sediment, anchoring via a byssus [6]. In the 1980s, there were large decreases in most populations of P. nobilis due to various anthropogenic activities, such as recreational and commercial fishing, ornamental harvesting (the byssus was used by artisanal manufactures of the so-called ‘sea silk’ [8]), and accidental killing by anchoring and trawl nets [9]. To address the decreased populations, P. nobilis was included in a protection regime under the Annex II of the Barcelona Convention (SPA/BD Protocol 1995) and Annex IV of the EU Habitats Directive (European Council Directive 92/43/EEC). More recently, in Italy, the Legislative Decree 190/2010, Art. 11 for the Marine Strategy Monitoring Program included the fan mussel among the Mediterranean species worthy of particular attention. The application of these conservation measures led to the recovery of the populations of P. nobilis throughout the entire Mediterranean basin. The results from one of the most recent molecular surveys [10] also supported the good health status of this species, without evidence of genetic fragmentation within and among the main Mediterranean basins [10,11]. Unfortunately, since 2016, dramatic mass mortality of the fan mussel populations has been observed in several Mediterranean areas, from the coasts of Spain eastward [12]. To date, epidemiological surveys have indicated different etiological agents as being responsible for the P. nobilis mass mortality, with Haplosporidium pinnae as the primary agent [13–15], followed by Mycobacterium sp. [16], Vibrio spp. [17,18], and Perkinsus spp. [19]. In the first phase of the illness, individuals affected by this unknown disease are characterized by an anomalous slow closure of the valves after external stimulation. In the advanced phases, individuals are no longer able to completely close the valves, becoming highly vulnerable to predation. In the terminal stage, the mantle of the fan mussel detaches from the valves and moves down in the bottom of the shell, after which individuals cannot survive more than a few days (in the absence of predation). In the Western Mediterranean, until a few years ago, Sardinia Island housed a large number of P. nobilis populations, which included thousands of individuals (personal observation during sampling collections for previous studies [10,11], mainly located in national parks and marine protected areas distributed along the coastline of the island). However, the Sardinian populations of P. nobilis have also been rapidly affected by this mass mortality, which dramatically decimated the island’s populations of fan mussels [16]. In particular, the case of Asinara Island (north-west of Sardinia) presents a brutal picture of the suddenness and severity of the phenomenon along the Sardinian coasts. Indeed, at the beginning of 2018, during a fan mussel census activity in the Asinara Island promoted by the Marine Strategy Monitoring Program, we detected the first signs of decline in P. nobilis when the total number of individuals at the sampling sites, considered in the present research, was still over 500 [20]. Then, in July 2018, mortality reached about 50%; in November, almost 90% of individuals were found dead (Figure1), and their shells were often used as a den for other species. Mass mortality phenomena involving other zoobenthic species (e.g., restricted to bivalves, Arca noae, Spondylus gaederopus, Lithophaga lithophaga, Ostrea edulis, Lima spp.) have been observed in the past. These events were seen as a consequence of the current climate warming trend [21], which affects more than just filter feeders. However, the situation of P. nobilis does not properly fall under such cases and cannot be compared with any other known mortality phenomena to date, at least in the Mediterranean. Life 2020, 10, 238 3 of 16 Life 2020, 10, x FOR PEER REVIEW 3 of 18 Indeed, to our knowledge, such a severe event, with very high mortality rates and wide geographical andMediterranean temporal distributions, zoobenthic marine has never taxa, been making reported the inneed Mediterranean to find a solution zoobenthic to stem marine (or partially taxa, making stem) thethis need catastrophic to find a scenario solution even to stem more (or urgent. partially stem) this catastrophic scenario even more urgent. Figure 1. Individuals of Pinna nobilis found dead with shell completelycompletely detacheddetached fromfrom thethe bottom.bottom. Therefore, in 2019,2019, thethe governmentgovernment ofof thethe AutonomousAutonomous RegionRegion ofof SardiniaSardinia (RAS)(RAS) promotedpromoted anan action plan focused on P. nobilisnobilis populationspopulations onon thethe SardinianSardinian coastcoast toto evaluateevaluate thethe impactimpact of thethe massive mortalitymortality onon itsits populationspopulations usingusing
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    Patellid Limpets: an Overview of the Biology and Conservation of Keystone Species of the Rocky Shores

    Chapter 4 Patellid Limpets: An Overview of the Biology and Conservation of Keystone Species of the Rocky Shores Paulo Henriques, João Delgado and Ricardo Sousa Additional information is available at the end of the chapter http://dx.doi.org/10.5772/67862 Abstract This work reviews a broad spectrum of subjects associated to Patellid limpets’ biology such as growth, reproduction, and recruitment, also the consequences of commercial exploitation on the stocks and the effects of marine protected areas (MPAs) in the biology and populational dynamics of these intertidal grazers. Knowledge of limpets’ biological traits plays an important role in providing proper background for their effective man- agement. This chapter focuses on determining the effect of biotic and abiotic factors that influence these biological characteristics and associated geographical patterns. Human exploitation of limpets is one of the main causes of disturbance in the intertidal ecosys- tem and has occurred since prehistorical times resulting in direct and indirect alterations in the abundance and size structure of the target populations. The implementation of MPAs has been shown to result in greater biomass, abundance, and size of limpets and to counter other negative anthropogenic effects. However, inefficient planning and lack of surveillance hinder the accomplishment of the conservation purpose of MPAs. Inclusive conservation approaches involving all the stakeholders could guarantee future success of conservation strategies and sustainable exploitation. This review also aims to estab- lish how beneficial MPAs are in enhancing recruitment and yield of adjacent exploited populations. Keywords: Patellidae, limpets, fisheries, MPAs, conservation 1. Introduction The Patellidae are one of the most successful families of gastropods that inhabit the rocky shores from the supratidal to the subtidal, a marine habitat subject to some of the most © 2017 The Author(s).
  • A Revision of the Australian Pinnidae

    A Revision of the Australian Pinnidae

    AUSTRALIAN MUSEUM SCIENTIFIC PUBLICATIONS Hedley, Charles, 1924. A revision of the Australian Pinnidae. Records of the Australian Museum 14(3): 141–153, plates xix–xxi. [26 June 1924]. doi:10.3853/j.0067-1975.14.1924.838 ISSN 0067-1975 Published by the Australian Museum, Sydney nature culture discover Australian Museum science is freely accessible online at http://publications.australianmuseum.net.au 6 College Street, Sydney NSW 2010, Australia A REVISION OF THE AUSTRALIAN PINNIDJE. By CHARLES HEDLEY. (Plates xix-xxi.) The Pinnidm are a small family of marine bivalves including many fossil and about fifty recent species which occur throughout the warmer seas of the world. Though thin and brittle these shells are notable for their length, being exceeded in this respect only by the Giant Clams. They live planted point downwards with the tips of the broad ends projecting above the surface of zostera flats. An ugly wound may be inflicted on the bare feet of those who tread on their sharp blades, from this the shells are called in Australia "Razorbacks." The doings of a commensal crab, Pinnotheres, frequently a guest in the Pinna mansion, is related by classic legends either as the behaviour of a rascal or of a grateful attendant. The first attempt at classification of the Pinnidm was by Chemnitz, who in 1785 drew attention to a feature separating various species of Pinna,. In some, for instance P. ineurv1ata., the apical muscle scar has a ridge running lengthwise down the centre; in others, as in P. atrata, this ridge is absent. Apparently prompted by this observa­ tion, Gray proposed' the genus Atrina for the second group, with P.